Anza™ T4 DNA Ligase Master Mix

Name: Anza™ T4 DNA Ligase Master Mix
SKU: IVGN2108
Price: 932.00 USD

The Invitrogen Anza™ T4 DNA Ligase Master Mix facilitates the joining of abutted 5’-phosphate and 3’-hydroxyl termini in duplex DNARead more

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Catalog Number	Quantity
IVGN2108	200 Reactions
IVGN2104	50 Reactions

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Catalog number IVGN2108

Price (USD)

932.00

Each

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Quantity:

200 Reactions

Price (USD)

932.00

Each

Add to cart

The Invitrogen Anza™ T4 DNA Ligase Master Mix facilitates the joining of abutted 5’-phosphate and 3’-hydroxyl termini in duplex DNA through the formation of a phosphodiester bond. It can be used to join DNA fragments with both sticky ends and blunt ends, and to repair nicks in double-stranded DNA with 3'-hydroxyl and 5'-phosphate ends. Anza T4 DNA Ligase is formulated as a 4X concentrated master mix. Ligation can be performed with DNA in water, TE, elution buffer, or 1X Anza™ buffers.

Benefits:
• Ligation complete in 15 minutes at room temperature
• A single ligase master mix for both sticky-end and blunt-end ligation reactions
• Ready-to-use master mix format reduces pipetting steps
• 4X concentration enables more dilute DNA to be used in ligation reaction without concentrating

Anza T4 DNA Ligase Master Mix is part of the Anza™ Restriction Enzyme Cloning System, unifying the traditional cloning processes. Other Anza DNA Modifying Enzymes include the Anza T4 PNK Kit, Anza DNA Blunt End Kit, and Anza DNA End Repair Kit.

For Research Use Only. Not for use in diagnostic procedures.

Specifications

Concentration4X

Shipping ConditionApproved for shipment on Wet or Dry Ice

EnzymeT4 DNA Ligase

Compatible BufferElution Buffer, 1X Anza Buffer

Quantity200 Reactions

Product TypeT4 DNA Ligase Master Mix

Product LineAnza™

Unit SizeEach

Contents & Storage

1 mL Anza T4 DNA Ligase Master Mix

Store at -5 to -30°C.

Frequently asked questions (FAQs)

What are the recommended conditions for blunt-ended ligations?

Generally, ligations are done in a 20 µL volume. Use a total of 100 to 1000 ng of DNA with an insert to vector ratio of 3:1. Add 1.0 units (Weiss) ligase to the reaction. Incubate at room temperature for 4 h or overnight at 14-16 degrees C.

Ideally, assemble several reactions with varying ratios of vector:insert (i.e. 3:1, 5:1, 10:1, 20:1, etc.) to determine the optimal ratio for ligation.

Thermo Fisher Scientific offers T4 DNA ligase at two concentrations: 1 U/µL (Cat. No. 15224-017) and 5 U/µL (Cat. No. 15224-041). When performing blunt or TA cloning ligations, the higher concentration of ligase is generally preferred since ligating a blunt or single base overhang requires more enzyme.

What are the recommended conditions for cohesive-end ligations?

Generally, ligations are done in a 20 µL volume. Use a total of 10 to 100 ng of DNA per reaction with an insert to vector ratio of 3:1. Add 0.1 units (Weiss) ligase to the reaction. Incubate at room temperature for 30-60 minutes.

Optimal ligation may occur at other ratios (e.g. 1:5, 1:10). If possible, assemble several ligation reactions of varying insert to vector ratios in order to reveal the optimal ligation conditions.

Which is better to use, T4 or E. coli DNA ligase?

It depends on your application. For ligation of dsDNA fragments with cohesive ends, either enzyme can be used. E. coli DNA ligase requires the presence of beta-NAD, while T4 DNA ligase requires ATP. However, only T4 DNA ligase can join blunt-ended DNA fragments - E. coli ligase is unable to join such fragments.

E. coli DNA ligase is generally used to eliminate nicks during second-strand cDNA synthesis. T4 DNA ligase should not be substituted for E. coli DNA ligase in second-strand synthesis because of its capability for blunt end ligation of the ds cDNA fragments, which could result in formation of chimeric inserts.

Why is ATP present in the reaction buffer for T4 DNA Ligase?

ATP is necessary for enzymatic function. It is involved in phosphorylating the ligase prior to the ligation reaction. Ligation efficiency is markedly reduced by removing ATP from the reaction. It is important, therefore, to handle the buffer appropriately in order to minimize degradation of ATP.

What are some of the problems associated with sticky-end cloning?

The amplified DNA needs to be purified from the PCR mixture components prior to cloning. The dNTPs carried over from the PCR are competitive inhibitors for ATP in the ligation reaction.

If during synthesis of the PCR primers their chemical integrity has been compromised by either a base substitution or modification, the enzyme recognition site may in actuality not exist. If this is the case, PCR products will be resistant to digestion with restriction enzymes. It may be necessary to use a higher concentration of the restriction enzyme and to incubate at the appropriate temperature overnight to ensure cutting.